Effects of habitat complexity and predator exclusion on the abundance of juvenile red snapper

Predator exclusion and habitat complexity factors that may affect juvenile red snapper Lutjanus campechanus habitat selection were examined in field and laboratory experiments. A significant predator exclusion effect was detected. Uncaged shell habitats showed significantly lower numbers of age 0 year red snapper, and both uncaged shell and block-shell habitats showed significantly lower numbers of age 1 year red snapper compared with caged habitats ( P < 0·001). Habitat complexity also affected age 0 year red snapper, as mean abundance significantly decreased with decreased habitat complexity ( P < 0·001). In the laboratory, age 0 year red snapper association with complex habitats significantly increased with exposure to a predator Gulf flounder Paralichthys albigutta ( P < 0·001). This study showed that predator exclusion and habitat complexity were significant factors that affected the abundance of juvenile red snapper in nursery areas of the northern Gulf of Mexico. Predation may affect juvenile red snapper abundance directly through mortality and indirectly by influencing habitat selection.     

刺激大鼠下丘脑室旁核激活的中脑中央灰质神经元对躯体传入的反应

电刺激大鼠下丘脑室旁核(PVH),在同侧中脑中央灰质(CG)内寻找逆行及顺行反应单位,然后观察它们对躯体感觉刺激的反应。实验结果表明:CG 及邻近网状结构内有10%(32/318)的单位呈逆行反应。逆行传导速度平均为0.37±0.24m/s(均数±标准差);推测这种CG→PVH 投射纤维属于细有髓或无髓神经纤维。这些单位分布于 CG 的腹外侧及背外侧亚核。50%(14/28)的逆行单位对坐骨(胫)神经的强电刺激和夹尾等损伤性刺激起反应,但对触毛或低强度的神经干刺激无明显反应。以上结果表明:外周躯体感觉,特别是损伤性信息传入 PVH 时,CG 是其中枢驿站之一。电刺激 PVH 还能顺行激活7.55(24/318)、抑制0.7%(2/318)的 CG 单位。有69%(18/26)的顺行反应单位对外周躯体神经强电刺激及夹尾起反应。提示 PVH 可能通过影响 CG神经元的活动而参与中枢痛觉的整合。     

大鼠中脑导水管壁及周围灰质在针刺镇痛时的~3H-5-羟色胺含量变化

本研究用~3H-5-羟色胺作示踪,由大鼠侧脑室注入后用冰冻微观放射自显影和组织固定微观放射自显影平行探讨了针刺镇痛时中脑导水管壁及周围灰质部位5-羟色胺的含量定位变化。研究结果发现,当电针达到镇痛时,在中脑导水管壁及周围灰质部位~3H-5-羟色胺的放射自显影象都呈明显增高,这表明在针刺镇痛条件下,~3H-5-羟色胺可迅速被中脑导水管壁及周围灰质部位摄取和储存,从而提示上述部位与针刺镇痛作用有密切关系。     

家兔中脑导水管周围灰质中甲七肽样免疫活性物质具有镇痛作用并参与电针镇痛

以辐射热照射家兔鼻嘴部皮肤,测定甩头反应潜伏期(ERL)作为痛阈。通过预先埋植的慢性套管向中脑导水管周围灰质(PAG)注射甲七肽降解酶抑制剂 Captopril,观察其镇痛作用以及加强电针镇痛的作用能否被特异的甲七肽抗血清所对抗。(1)单侧 PAG 注射 Captopril240 nmol 的镇痛作用可为同一部位注射甲七肽抗血清(1μl)所翻转,注入甲啡肽抗血清则无效。(2)单侧 PAG 注射 Captopril 60 nmol 有加强电针镇痛的作用。该作用可被1μl 甲七肽抗血清所完全取消,将抗血清量减少到0.1μl 则无效。以上结果说明 PAG 内的甲七肽样免疫活性物质在镇痛和电针镇痛中发挥重要作用。     

家兔中脑导水管周围灰质中注射八肽胆囊收缩素(CCK-8)拮抗吗啡镇痛和电针镇痛

家兔单侧PAG内注射CCK-83ng,能使静脉注射4mg/kg吗啡引起的镇痛作用降低73％或使电针镇痛效果降低67％。在1.5—6.0ng范围内呈量效关系。无硫的CCK-8无此作用。PAG内注射CCK受体拮抗剂proglumide 4μg可翻转CCK-8的抗吗啡镇痛作用。说明PAG部位注射外源性CCK-8可通过CCK受体对抗阿片镇痛。 PAG内注射CCK-8抗血清可显著增强静脉注射2mg/kg吗啡的镇痛效果。PAG内注射CCK抗血清本身也能引起痛阈轻度升高。说明PAG内有内源性的CCK-8发挥紧张性的抗阿片镇痛作用。     

谷氨酸钠兴奋尾侧导水管周围灰质腹外侧部的升压反应及其在脑干内的传出通路

实验用乌拉坦麻醉、箭毒化、人工呼吸的大鼠,观察到:(1) 胞体兴奋剂L-谷氨酸钠(Glu)注入尾侧导水管周围灰质腹外侧部(PAG)引起明显的加压反应,(2) 该效应可被双侧延髓头端腹外侧(RVL)加压区内注射酚妥拉明或心得安衰减,但不受阿托品注入RVL影响;表明此升压反应是通过RVL及其内的α-及β-受体实现的。(3) RVL内注入心得安也可衰减电刺激腹侧臂旁核(NPV)的加压作用,却不影响Glu注入NPV的升压效应;结合以往的实验结果,提示尾侧PAG腹外侧部的神经元发出的轴突,可能一方面路过臂旁核直接作用于RVL内的β-受体,另一方面可能在臂旁核内换元,然后作用于RVL内的α-受体,而起升压作用。     

Neuronal types in the spinal dorsal gray of the turtle Chrysemys d'orbigny: a Golgi study

At thoracic and lumbar levels the spinal dorsal gray of young specimens of the turtle Chrysemys d'orbigny consists of a cell-free neuropil and an aggregation of perikarya termed here the lateral column of the dorsal horn (LCDH). Nerve cell clusters also occur in the dorsal commissure. The main neuropil area can be divided into a thin superficial layer containing some myelinated fibers (neuropil area Ib) and a compact core composed of unmyelinated axon terminals, dendritic branches, and thin glial processes (neuropil area II). A looser neuropil area is located at the horn base (neuropil area III). The so-called marginal zone of de Lange represents a fourth synaptic field termed here neuropil area Ia. The LCDH consists of neurons of different size and shape. Two peculiar nerve cell types have been recognized in the dorsal horn: giant and bitufted neurons. The former exhibits a large dendritic arbor, which after passing through neuropil areas II and Ib projects into neuropil area Ia and the adjacent white matter. Most frequently Golgi-stained giant neurons have perikarya and dendritic domains on the same side (ipsilateral giant neurons). There are also heterolateral giant neurons whose dendritic branches invade the opposite horn. Bitufted neurons are characterized by the presence of two main dendritic shafts connecting neuropil area II of both dorsal horns. At neuropil levels the major dendritic branches ramify profusely giving rise to short tortuous terminal processes. Perikarya of bitufted neurons occur in the dorsal commissure. The LCDH also contains many small and medium-sized neurons. These are oriented in two main directions: parallel or radial with respect to the dorsal horn surface. The population of horizontally oriented neurons comprises two subtypes termed here alpha and beta. Radially oriented neurons are pleomorphic, defying precise, unequivocal classification.     

大鼠尾核头部对中缝大核神经元单位活动的影响及其可能途径

用玻璃微电极细胞外记录大鼠中缝大核(NRM)神经元的单位放电。共记录277个细胞,NRM 神经元自发放电频率大都在每秒0.5—20次之间,平均为6.41 Hz。其中221个神经元被电刺激尾所激活,35个被抑制,21个无明显变化。NRM 神经元对躯体刺激的反应类型与自发放电的特征有关,兴奋型神经元的自发放电频率较低((?)=4.96Hz),而抑制性神经元的自发放电频率较高((?)=15.03 Hz)。在24例兴奋型神经元中,刺激尾核头部能够激活大多数 NRM 神经元的自发放电和抑制其伤害感受性反应。导水管周围灰质微量注射纳洛酮(2.5ug/0.5μl,n=15)。能够明显阻断刺激尾核头部激活 NRM 神经元自发放电和抑制伤害感受性反应的效应。     

中脑导水管周围灰质在侧脑室注入微量吗啡或纳洛酮所引起的镇痛或拮抗镇痛中的作用

本工作进一步探索中脑导水管周围灰质(PAG)在吗啡镇痛与纳洛酮拮抗吗啡镇痛中的作用。实验在清醒受限制的大鼠上进行,以电刺激鼠尾出现的甩尾和嘶叫为痛反应指标。结果表明:(1)侧脑室注射微量纳洛酮后,可使电刺激 PAG 或注射微量吗啡于 PAG 所引起的镇痛效应受到明显拮抗;(2)损毀 PAG 或注射微量纳洛酮于 PAG 后,可使由侧脑室注入微量吗啡所引起的镇痛效应显著减弱。由此可见 PAG 既是侧脑室注射吗啡镇痛作用的重要中枢部位,又是侧脑室注射纳洛酮拮抗吗啡镇痛的重要中枢部位。     

刺激家兔中脑导水管周围灰质抑制束旁核伤害性放电的脊髓上机制

本工作比较了家兔脊髓背侧1/2进行横切前后刺激中脑中央灰质对束旁核伤害性放电的抑制率的改变。实验表明中央灰质既可通过公认的脊髓下行纤维抑制脊髓水平的痛传递,减弱束旁核单位的痛敏放电,也可通过某种脊髓上机制实现对束旁核的抑制。我们对这两种机制的相对重要性作了分析。用直11个束旁核痛敏单位所作的计算表明,在脊髓切割前,刺激中央灰质可使束旁核痛敏放电抑制67.5%,脊髓背侧1/2横切后,同样的中脑刺激只能使痛敏放电抑制42.9%。如以切割前的抑制率作为直100%,则切割可使抑制减弱36.5%,这一部分抑制应当是由被切断的脊髓下行纤维实现的,其余63.5%则可能主要通过脊髓上机制来实现。考虑到脊髓背半部横切不可能全部切断下行纤维,故实际上脊髓上机制的重要性不会有上述数值表示的那么大。